TW201304364A - Electric power generation device - Google Patents

Abstract

This invention discloses an electric power generation device, comprising: a power source device for generating a power for driving a rotor of a generator to perform rotary motion via a moment transmission mechanism; the generator for generating an electric power, the generator including the rotor; the moment transmission mechanism disposed between the power source device and the rotor of the generator and adapted to lengthen a moment arm between a point of application of the power and the rotor, such that the moment arm thus lengthened allows the power transmission mechanism to impose a moment amplifying effect on the rotor, thereby driving in a labor-saving manner the rotor to perform the rotary motion.

Description

Generator device

The present invention relates to a device for a generator, and more particularly to a device capable of efficiently generating electricity by a generator.

Taiwan Patent Application No. 096135988 "Gear-type wave generator" discloses a gear-type ocean wave generator comprising: a body, a power generating device and a buoyancy unit, wherein the body is hollow and straight, and the interior thereof is provided a vertical member that can be slid down and a rack coupled to an upper portion of the sling; the buoyancy unit floats on the sea surface and is coupled to the rack; the power generating device is fixed to the body, and a gear rod is rotatable The rack is engaged with the rack through the body; in use, the buoyancy unit drives the weight to move up and down as the sea water floats up and down, thereby driving the gear rod of the power generating device to rotate and generate electricity.

Another Taiwanese Patent Application No. 099204016 "Gear-type wind turbine device" discloses a gear-type wind power generator device, which mainly comprises a fan blade mechanism, a gear-type transmission mechanism, and a bearing base design combined into a gear type. The blade device of wind power generation, and enables it to be connected in series according to the actual demand. When the wind drives the blade mechanism at the center, the outer frame gear also follows the rotation, and the gear transmits kinetic energy to connect the generator. The thrust of the gear rotation drives the power generation module to generate electricity.

However, the above-described conventional art generator does not consider how to combine the power and the force distance effect, so that the generator rotor can be mechanically rotated to efficiently generate power for the generator, and the inventors of the present invention have the skill in view of the prior art. The lack of it, invented and improved a generator device to solve the lack.

It is an object of the present invention to provide a generator device that efficiently energizes a generator.

In order to achieve the above object of the present invention, the present invention provides a generator device comprising: a power source device for generating a power, wherein the power system drives a rotor of a generator to rotate through a force transmission mechanism; a generator for generating a power, and comprising at least: the rotor; the force transmission mechanism is disposed between the power source device and a rotor of the generator, and is used for increasing the power The length of the force arm between the position of the force point and the rotor is such that the power transmission mechanism can generate an amplifying force effect on the rotor via the increased force arm, so as to save the rotational motion of the rotor.

In order to provide a deeper understanding and understanding of the structure, features and efficacy of the present invention, the preferred embodiments are described in detail with reference to the drawings below.

Please refer to Figures 1, 3 and 4, and the contents and features of the present invention will be described below with reference to the drawings, so that the reviewing committee has a better understanding of the system of the present invention. The present invention is a generator device 10 comprising: a power source device 101, a generator 103, and a force transmission mechanism 105, each of which is described later.

Since the important feature of the generator device 10 of the present invention is that the physical principle of the force is sufficiently utilized, the power source device 101 can be very labor-saving to drive the rotation of the rotor 103a of the generator 103, thereby causing the generator 103 to generate electric power.

The generator device 10 of the present invention is capable of efficiently generating electric power because the force transmission mechanism 10 of the present invention functions as an amplifier. Hereby move to the first principle of Pascal (Pascal ^'s principle) will be described, the principle of Pascal pressure change means a sealed container of a certain part of stationary fluid occurs, may be transmitted to various parts of the fluid container wall, see FIG. 2 In the hydraulic system, a pressure F is applied to the piston 21 to generate the same pressure difference on the other piston 23. When the area of the piston 23 is 4 times that of the piston 21, the piston 23 can be amplified by 4 times the pressure F. The pressure 4F, the hydraulic system of Figure 2, has the function of a powerful amplifier. The difference between the present invention and the hydraulic system of Fig. 2 is the difference in physical principle, but the commonality is the function of the amplifier that realizes the force.

In Fig. 1, the power source device 101 functions to generate power, and the generated power is caused to rotate by the rotor 103a of the generator 103 via the force transmission mechanism 105. A specific embodiment of the power source device 101 can be, for example, a conventional internal combustion engine or a conventional motor or a turbine. Conventional internal combustion engines (such as automobile engines) burn and explode via gasoline gasification, and convert the reciprocating (or rotating) motion of the piston into a rotational motion of the crankshaft, which is the driving force of the present invention. Conventional generators (such as motors) are powered by the power of the mains or battery, and it is known that the rotor of the generator rotates, which is the power of the present invention. The conventional turbine rotates the rotating shaft of the conventional turbine by passing the fluid, and the rotating shaft rotates to drive the conventional generator rotor to rotate, and the rotation of the rotating shaft is the power of the present invention.

The function of the generator 103 is to generate electricity. A specific embodiment of the generator 103 of the present invention may alternatively use a conventional generator for a wind power windmill. Conventional generators can use the related art of multi-pole synchronous generators, so that a slow rotational speed can be used to generate electricity. At this time, a custom-made conventional generator is used, and the number of poles is from 50 poles to 100 poles, or more than 100 poles.

The force transmission mechanism 105 is disposed between the power source device 101 and the rotor 103a of the generator 103. One of the functions of the force transmission mechanism 105 is for increasing the length of the force arm between the position of the force point (the power generated by the power source device 101) and the rotor 103a, so that the power transmission mechanism 101 can Through the increased force arm, a force acting on the rotor 103a can be exerted, and the function of the force amplifier can be exerted, so that the rotational movement of the rotor 103a is labor-saving.

The following specific embodiments are given to illustrate how the force transmission mechanism 101 of the present invention exerts a force distance on the rotor 103a of the generator 103. Please refer to Figures 3 and 4 for cooperation.

Referring to Fig. 3, there is shown a structural view of an embodiment of the force transmission mechanism 105 of the present invention. The force transmission mechanism 105 includes one or more gears 105a, 105b, wherein the gears 105a, 105b are interlocked together, and one of the gears 105b is fixed to the rotor 103a, for example, the gear 105b is fixed to the rotation shaft of the rotor 103a. On 1031.

The gear 101a receives the power T generated by the power source device 101 and rotates. Since the gear 105a and the gear 105b are engaged with each other and rotate together, the rotating shaft 1031 is rotated, so that the rotor 103a is rotated, and the generator 103 generates electric power. . In Fig. 3, there is a distance A between the application point 105c of the power T and the center position of the rotating shaft 1031, and the distance A is the increasing force arm. Therefore, the force transmission mechanism 105 is via the increased force. The arm A exerts a force acting force on the rotor 103a.

Referring to Fig. 4, there is shown a structural view of an embodiment of the force transmission mechanism 101 of the present invention. Li Ju transmission mechanism 105 is the comprises more than one grit wheel 105 ^{'a, 105'} b, wherein the plurality of abrasive wheels 105 ^{'a, 105'} b system with interlocking, and wherein a friction wheel 101b train fixed to the rotor 103a, e.g. friction wheel 105 ^'b fastener 1031 on the pivot shaft 103a of the rotor.

Grit wheel 105 ^'a receiving power T power source device 101 generated by the rotational movement, since the friction wheel ^105' a and friction wheel 105 ^'b contact with each other interlocking swirled for drive shaft 1031 rotating, so that the rotor 103a is rotated And let the generator 103 generate electricity. In Fig. 4, there is a distance A between the application point 105c of the power T and the center position of the rotating shaft 1031, and the distance A is the increasing force arm, and therefore, the force transmission mechanism 105 is via the increased force. The arm A exerts a force acting force on the rotor 103a.

105 grit wheel gear 105b of FIG. 3 and FIG. 4 of the ^'b may be, for example, having a diameter of between 1 meter to several tens of meters. 105 ^'b of larger diameter, is generated out of the Li Ju action or grit wheel gear 105b increases more significantly.

The force transmission mechanism 101 of the present invention is not limited to the above two specific embodiments. Those skilled in the art are familiar with the equivalent of the power transmission mechanism 101 after the spirit of the generator 10 of the present invention. Variations in range, such as the force transmission mechanism 101, include a chain or a curved rod or a linkage rod for transmitting power to rotate a variation of the rotor 103a, and such variations are within the scope of the invention.

Fig. 5 shows a modified embodiment of the generator device of the present invention. In the present modified embodiment, the power source device 101 is a part of the electric power generated by the electric motor 101 ^' and the electric generator 103, and is electrically connected to the electric motor 101 ^' . The power distribution device 40 can be utilized, for example, a specific embodiment of the electric distribution plate. The electric power P is distributed, whereby a part of the electric power P is returned to be supplied to the electric motor 101 ^' . The changeover switch 30 can switch the power of the commercial power or the power of the battery or return the partial power. The function of the switch 30 is to select which power to use for supply to the motor 101 ^' .

The generator device of the invention has the structural design of the force transmission mechanism, the function of the amplifier that exerts the force, combines the power and the force distance effect, and fully utilizes the power generated by the power source device to efficiently make The generator generates electricity, which is a significant improvement in the efficacy of the invention.

Therefore, the present invention is a novelty, progressive and available for industrial use, and should conform to the patent application requirements of the patent law. It is undoubtedly to file an invention patent application according to law, and the Prayer Bureau will grant a patent at an early date.

The above is only the preferred embodiment of the present invention, and the equivalent variations and modifications of the scope of the invention and the description of the invention are still not limited thereto. The scope of the invention is covered.

10. . . Generator device

21, 23. . . piston

30. . . Toggle switch

40. . . Distribution device

101. . . Power source device

101 ^' . . . electric motor

103. . . generator

103a. . . Rotor

105. . . Force transmission mechanism

105a, 105b. . . gear

105 ^' a, 105 ^' b. . . Friction wheel

105c. . . Force point

1031. . . Rotating shaft

Fig. 1 is a block diagram showing the structure of a generator device of the present invention.

Fig. 2 is a schematic view showing the principle of an amplifier for explaining a force by an application example of a hydraulic system of the present invention.

Fig. 3 is a view showing the structure of an embodiment of a force transmission mechanism of the generator device of the present invention.

Fig. 4 is a view showing the structure of another embodiment of the force transmission mechanism of the generator device of the present invention.

Fig. 5 shows a modified embodiment of the generator device of the present invention.

10. . . Generator device

101. . . Power source device

103. . . generator

105. . . Force transmission mechanism

Claims (6)

A generator device includes: a power source device for generating a power, wherein the power system drives a rotor of a generator to rotate through a force transmission mechanism; the generator is used to generate a power, And the system includes at least: the rotor; the force transmission mechanism is disposed between the power source device and the rotor of the generator, and is configured to increase a position between the point of application of the power and the rotor The length of the arm is such that the power transmission mechanism generates an amplifying force acting on the rotor via the increased force arm, so that the rotational movement of the rotor is labor-saving. The generator device of claim 1, wherein the power source device is an internal combustion engine or an electric motor or a turbine. The generator device of claim 1, wherein the rotor includes at least one rotating shaft, wherein the power transmission mechanism generates the amplified force distance through the increased force arm, so that the power is saved. The rotary motion of the shaft is driven. The generator device of claim 1, wherein the force transmission mechanism comprises more than one gear, wherein the gear trains are interlocked together, and one of the gear trains is fixed to the rotor. The generator device of claim 1, wherein the force transmission mechanism comprises more than one friction wheel, wherein the friction wheel trains are interlocked together, and one of the friction wheel trains is fixed to the rotor . The generator device of claim 2, wherein a portion of the power generated by the generator is electrically connected to the electric motor, thereby returning the portion of the electric power for supply to the electric motor.